Luna is an expressive, minimalistic, elegant programming language implemented in C. With cooperative thread concurrency at its core, async I/O, and influences derived from languages such as Lua, io, Rust, Ruby, and C. Luna favours unification and minimalism over minor obscure conveniences, providing the true convenience of a simple effective language. This includes omitting features which facilitate magic such as getters/setters, method_missing-style delegation etc. This project is very much a work in progress, as I explore the wonderful world of VMs! feel free to join.
Goals
- fast!
- small (~2000 SLOC)
- simple, elegant, explicit
- small learning curve
- statically typed with inference
- high concurrency out of the box via coroutines
- small embeddable / hackable core
- ...
Build
To build Luna, simply run:
$ make
Check out the help:
$ ./luna --help
Status
Generalized status:
✔ lexer✔ parser✔ test suite✔ ast✔ linenoise integration for REPL- ◦ register machine
- ◦ C public/internal apis
- ◦ garbage collection
- ◦ continuations
- ◦ optimizations (TCO etc)
- ◦ portability
- ◦ closures
- ◦ VIM / TM / syntaxes
- ◦ website
- ◦ context threading
Typing
Luna is statically typed, however mostly optional thanks to type inference. Some declarations such as function parameters must specify a type:
def greet(name:string)
return "Hello " + name
end
Types that can be properly inferred may be, for example function return types as seen above. When fully-qualified the same function would look like this:
def greet(name:string): string
return "Hello " + name
end
Function overloading
Luna plans to provide multiple dispatch support. This will drastically cut down on verbosity and fragmentation. For example suppose you have a vec_sum(v)
function, in Luna you would simply create a sum(v)
function:
def sum(v:vec): int
...
end
Thanks to the typing system Luna can choose the correct function to invoke for the given parameters. This technique addresses another fundamental problem of many languages, fragmentation and delocalization. For example it is often tempting to extend native prototypes or classes provided by the host language, such as Array#sum()
.
Because no such construct exists in Luna you're free to "extend" these types elsewhere simply by defining functions that act on those types, without polluting "global" classes or objects, removing a layer of indirection, as it's often not clear where these additions came from, and they regularly conflict.
Method syntactic sugar
As previously mention Luna has no concept of classes, methods, or prototypes. To increase readability you may invoke functions as if they were methods. For example the following would be equivalent:
cat('urls.txt').grep('https://').print()
print(grep(cat('urls.txt'), 'https://'))
Fork / join
More often than not you want to perform several tasks in parallel, and "join" their results. For this luna provides the &
postfix operator, which is syntax sugar for wrapping the expression in a fork()
function call:
a = get('http://google.com').grep('<title>') &
b = get('http://likeaboss.com').grep('<title>') &
c = get('http://cuteoverload.com').grep('<title>') &
res = join(a, b, c)
This wraps each statement in a coroutine which may run independently.
Operator precedence
Operator precedence from highest to lowest:
operator | associativity
------------------------|---------------
[ ] ( ) . | left
++ -- | right
! ~ + - | right
* / % | left
+ - | left
<< >> | left
< <= > >= | left
== != | left
& | left
^ | left
| | left
&& | left
|| | left
?: | right
= += -= /= *= ||= &&= | right
not | right
, | left
luna(1)
Usage: luna [options] [file]
Options:
-A, --ast output ast to stdout
-T, --tokens output tokens to stdout
-h, --help output help information
-V, --version output luna version
Examples:
$ luna < some.luna
$ luna some.luna
$ luna some
$ luna
Community
- irc: #luna-lang on irc.freenode.net
License
MIT